The goal of this article is a presentation of new method used in optical experiments. The treated component is a spherical mirror of a composed objective built in the elementary particles detector. A principle of this measuring method consists in the separation of the consistent beam into single elementary rays and in analysis of their propagation direction. The real shape of the optical surface can be derived from the direction of rays reflected from the mirror. and Práce se zabývá problematikou testování detekční optiky, konkrétně sférických zrcadel užitých při konstrukci velkoplošných detektorů Čerenkovova záření. Vzhledem k velkým sériím a relativně nízké požadované přesnosti těchto zrcadel je zde možnost vývoje specifických metod. V tomto článku je popsána modifikace SH testu určeného pro astronomická zrcadla s cílem větší produktivity a nižších nákladů na měřicí aparaturu. Metoda je založena na rozdělení měřené plochy na jednotlivé body a vyšetřování směrů jednotlivých paprsků. Úhlové odchylky pak slouží k rekonstrukci skutečného tvaru optické plochy.
RODES - Robust Hyperspectral Detection System is the next development stage for the detection of hazardous chemicals by spectral analysis in the infrared spectrum. The optical system is made up of many aspherical surfaces requiring high accuracy of fit within the opto-mechanical system. In order to store the optical elements in the mechanical parts, a new way of storage has been developed, which makes it easy to manufacture and ensures high storage accuracy. and Projekt RODES, neboli robustní hyperspektrální detekční systém, je další vývojový stupeň zařízení pro detekci nebezpečných chemických látek pomocí spektrální analýzy v infračervené oblasti spektra. Optická soustava systému je tvořena mnoha asférickými plochami, které vyžadují vysokou přesnost uložení v rámci optomechanického systému. Pro uložení optických prvků do mechanických dílů byl vyvinout nový způsob uložení, který umožňuje snadnou výrobu a zajišťuje vysokou přesnost uložení.
A new optical apparatus for in situ monitoring of optical constants of growing (etched) thin films - substrate systems over the large surface area of the sample (ranging from 1 to 2 cm2) was designed, constructed and tested in our group. Namely, the two following devices have been designed: Firstly, InSitu-AreaSampler together with control software has been developed for analysis of an areal homogeneity of thin-film growth during its deposition (or etching). The method is based on the measurement of reflectivity of the sample at selected wavelengths of an incident light. Areal detection is assured (performed) by imaging of the surface of thin film by a CCD chip where each pixel acts as small detector in an independent way. Secondly, the InSitu-SpotSampler was developed for measurement the reflectivity of growing (etched) thin film at one spot on the sample surface but in quasi-continual range of wavelengths (UV-VIS). The results achieved show the usability of this instrument for the in situ measurements of optical constants (index of refraction n, exctinction coefficient k, thickness d) over the whole sample area (cca 1.5 × 1.5 cm2) in a quasi-real time mode. Having this feed-back it is possible to control the deposition process in a more effective way.
Deer (family Cervidae) form the most numerous and varied group of ungulates or large herbivores in four out of 6 continents. This review of the phylogeny and taxonomy of living deer species is based on information published recently in scientific papers. The first part presents the taxonomy of muntjacs (Muntiacini). This tribe includes 11–14 species living solitarily in closed habitats (mostly forests) in South and Southeast Asia. Their antlers are two-tined and Jan Pluháček.
The second part of this text on the systematics and phylogeny of extant cervids focuses on Cervini. This group includes more than 20 various deer species inhabiting forests and grasslands of Europe, Asia, and North America; 15 of them listed in the Red Data List of endangered species. During the last 10 years many papers have been published on their phylogeny. Its recent overview including relationships between individual species is summarized. and Jan Pluháček.
The last part of the series on cervid taxonomy involves the subfamily Capreolinae. This subfamily could be divided into two clades: an Old World clade including Roe Deer (Capreolus capreolus, C. pygargus), Chinese Water Deer (Hydropotes inermis) and Moose (Alces alces) and a New World clade including Reindeer (Rangifer tarandus), Mule Deer (the genus Odocoileus) and deer of Mesoamerica and South America (Ozotoceros bezoarticus, Blastocerus dichotomus and species of the genera Hippocamelus, Pudu and Mazama). Most of the species belonging to Capreolinae are evolutionary young. The evolutionary relationships among extant South American deer remain unclear. Cervids are the most successful ungulate family that has ever colonized South America. and Jan Pluháček.